Two component wide angle camera lens



OR 3 r400 my E p 1968 M. M. ROOSINOV ETAL 3,400,994

TWO COMPONENT WIDE ANGLE CAMERA LENS Filed Aug. 13. 1964 4 Sheets-Sheet l p 10, 1963 M. M. ROOSINOV ET AL 3,400,994

TWO COMPONENT WIDE ANGLECAMERA LENS Filed Aug. 15, 1964 4 Sheets-Sheet 2 Sept. 10, 1968 Filed Aug. 15, 1964 M. M ROOSINOV ET AL 3,400,994

TWO COMPONENT WIDE ANGLE CAMERA LENS 4 Sheets-Sheet 5 p 0, 1968 M. M. ROOSINOV ET AL 3,400,994

TWO CQMPONENT WIDE ANGLE CAMERA LENS Filed Aug. 13, 1964 4 Sheets-Sheet 4 l a U 9 w H5. 7 l0 United States Patent 3,400,994 TWO COMPONENT WIDE ANGLE CAMERA LENS Mikhail Mikhailovich Roosinov and Petr Dmitrievich Ivanov, Leningrad, and Falk Solomonovich Novik, Moscow, U.S.S.R., assignors to Leningradsky Institute Tochnoi Mekhaniki i Optiki, Leningrad, U.S.S.R.

Filed Aug. 13, 1964, Ser. No. 389,494 1 Claim. (Cl. 350-215) ABSTRACT OF THE DISCLOSURE A wide angle camera lens constituted by first and second components arranged one ahead of the other on the optical axis. The first component has an angular magnification less than unity and comprises two negative meniscus lenses and two postive correction lenses, one of which is plano-convex and is positioned in front of the negative lenses, while the second mentioned positive lens is convexo-convex and is set behind the negative lenses. The second component is constituted by two cemented lens elements of which two are negative lenses and two are positive lenses set between the latter negative lenses and cemented to them. The lenses of both components have spherical surfaces.

This invention relates to wide angle photographic Q lenses, and in particular to wide angle camera lenses.

Wide angle camera lenses, made up of two components are well known. The first distortion corrected component with angular magnification was made as one or several negative lenses with deep aspherical surfaces. The second positive component is made up of concentric surface lenses, and is also distortion corrected.

The known two-component wide angle camera lenses are characterized by a relative aperture ratio not exceeding 1:3.5, a visual field 25:90 and considerable vignetting.

This results in a substantial decreases of the illumination of the margins of the field. There are lenses with a field of vision 130 and an improved light distribution with aspherical surface elements (the outer cap has a deep elliptical surface). The manufacture of such lenses is complicated and expensive.

The main objective of the present invention is to provide a two component wide angle camera lens having spherical surfaces, with the first component comprised of not less than.one positive correction lens with a plano or convex front surface placed as the front component of the optical system. Meniscus negative lenses (made of glass with Abbe number above 50) of the said component operate in the angle of minimum diffraction. This serves to correct distortion.

A significant feature of the invention is that the rear surface of the latter lens of the second component is nonconcentric over more than half of the radius of the latter lens, and the refraction indexes (n) of the said negative component lenses (made of glass with Abbe number below are larger than the positive lens refraction indexes (made of glass with Abbe number above by a value exceeding 0.05.

An object of this invention is to improve the distribution of light and quality of the image without employing lenses 3,400,994 Patented Sept. 10, 1968 with aspherical surfaces; to ensure a high quality image on a film of large size (e.g. 70 mm.). Other objects and features of the invention will become apparent in the description that follows:

Several embodiments of this invention are given in the drawings wherein:

FIG. 1 is an optical diagram of a wide angle camera lens according to the invention.

FIG. 2 is a diagram wherein spherical aberration is related to various spectrum wavelengths (from line C to G).

FIG. 3 is a diagram wherein astigmatism is related to the angle of the visual field.

FIG. 4 is a diagram wherein distortion is related to the angle of the visual field.

FIG. 5 is a diagram wherein chromatism is related to the angle of the visual field.

FIGS. 6a-6f are diagrams wherein lateral aberrations are related to the angle of the visual field and to the width m of the inclined rays.

FIGS. 7-9 are diagrammatic lens arrangements of further embodiments of the invention.

The wide angle camera lens illustrated in FIG. 1 consists of two components, each component consists of respective lenses 1, 2, 3, 4 and 5, 6, 7, 8. All the lens surfaces are spherical.

The first negative or telescopic component comprises two positive correction lenses 1 and 4, and two negative meniscus lenses 2 and 3 whose surfaces deflect the main rays to the same side and deflection degree. This corresponds to the functioning of said lenses in the minimum diffraction angle.

Lens 1 is plano-convex or meniscus shaped. Negative lenses 2 and 3 of the first component are made of glass with Abbe number exceeding 50.

If the distance between negative lenses 2 and 3 and positive lens 4 is equal to the focal length difference (in absolute value) of the first three lenses 1, 2, 3 and lens 4, then the first component changes from being a negative system into a telescopic one.

The second component comprises cemented pairs of lenses5,6 and 7, 8. The surfaces of these lenses have radii of curvature r r and 1' and these surfaces are concentric with diaphragm 9. The rear surface of lens 8 has a radius r which is non-concentric with diaphragm 9 by a value exceeding half of the rear radius (r e.g. the common center of the indicated concentric surfaces is closer to the top of the non-concentric surface rather than to its center.

The refraction index (n) of the second component negative lenses 5 and 8 exceeds the refraction indexes of the corresponding positive lenses 6 and 7 by a value exceeding 0.05.

Negative lenses 5 and 8 are made of glass of Abbe number less than 35, and positive lenses 6 and 7 are made of glass with Abbe number exceeding 40.

Diaphragm 9 is set between lenses 6 and 7.

In the first component there may be also installed one negative meniscus lens 10, as shown in FIGS. 7, 8 and 9. Here first positive lens 11 is plane-convex or, as shown in FIGS. 7 and 9 the first positive lens 11 may be meniscus shaped.

A cemented composite lens is the second component, and it is formed with a rear surface for lens 8 (FIGS. 7

and 8) which is non-concentric with diaphragm 9 as described above, or the rear surface of the rear lens 8 (FIG. 8) is concentric with diaphragm 9. e er rrows If the rear surface of lens 8 is non-concentric, it allows d n an increase in the distance between the lens and the focal Light Full g t F1111 plane P. This permits the use of the described lens in combination with a reflex shutter.

For a better understanding of the invention the follow- 8.10 M123 4 ing examp 16 is given 11 18 107 11 78 12 0 98 1 02 Example 10 i 2.12 1.0000 A wide angle camera lens given by way of illustration 115-38 1 11-52 -8 0.14 0.15 for 70 mm. film size and 25 X50 mrrr. film shutter, focal 5'916 1'6123 length f'=27.88, with a distance S'=32.09 from the 79 6 13-50 14.5 3. 6 3.82 rear surface of the lens to the focal plane P, relative aper- 7280 ture 123.5 and field of vision 2;8=9302'; the illumination 15 l l l 20.50 22 1. 45 1. 07 of the marginal zone of the visual field is 60% of the illumination in the center of the field. Table 2 gives aberration values for a point on the lens Table 1 indicates the constructive elements of the deaxis. scribed lens, where d is lens interval, 7/ is Abbe number, Table 3 gives values of astigmatism, distortion and and n is refraction index. chromatic difference of magnification related to the angle of the visual field.

Table 4 gives lateral aberrations in inclined rays. TABLE 1 In Tables 2-4 the following designations are used: 25 hhe1ght of the lens; S'the distance on the ax1s from Diameter Arrows the rear surface of the lens to the focal plane P; AS d n value of aberration; f'focal length; Af-focal length Light Fun Light Fun deviation; )\-length of wave; D, C, F-spectrum l ines;

fi -entrance field angles; 5 angles of emergence; 0

distance from the first surface to the center of the entrance 1 00 113.3 117 pupil; S -distance from the rear surface to the center 3 1-6126 of the exit pupil; ac -distance from meridional focus to 2 -743 107. 28 117 1,04 focal plane P; x distance from segittal focus plane P;

1-0000 Aydistortion; Ay%.-relative distortion; Ay'(F-C) 3 4, 4, 94 7 1014 mm is the chromatic difference of magnification; m is the 1-6126 width of the inclined rays in metric length and percent- 4 31.02 56.60 50.50 17.15 1 ages; 6G--is the circle of diffusion in the field center. 1-0000 The results given in Tables 2-4 are shown graphically 5 94.02 55.92 58.5 4.22 4, in FIGS. 2-6. This invention is applied in particular in 1-6126 40 cameras for shooting wide screen movie pictures on 0 32.43 47.50 17.0 10. 34 10. 40 mm. size film.

Though this invention is described according to a pre- 7 135.21 30.32 38.5 1.22 1.38 ferred embodiment, it is evident, that changes and varia- 1-6125 tions may be made by those skilled in the art without 8 "-89.74 34.0 38.5 1.02 2.00 45 departing from the invention. 7

L000) These changes and versions are not considered to be 9 17.258 20. 04 28. 5 0. 47 7. 52 beyond the main point extent of the invention and claims 1-6123 attached thereto.

TABLE 2 D .=58s.3 '0 .=050.3 F as o .=540.1 G)\=434 s AS A! s' as AS 3 AS 5' AS TABLE 3 61 8'1; B 5x :5 z; ar -7:. Au' Au% Au (F-C) cted, said lens com nent with angular magnification le two negative meniscus lens lenses, one of said positive being constituted b ing of two ne cemented theret having spherical position of the le wherein, r is the d is the lens interval; in is th Abb number.

radii of curv What we claim is: 1. A two com distortion corre ponent wide angle camera lens which is prising a first composs than unity including es and two positive correction correction lenses being pianoconvex and set in front of the said negative lenses, the second mentioned positive lens being convexo-convex and set behind the said negative lenses; the Second component y two cemented lens elements consistgative lenses, and two positive lenses set etween said negative lenses of the second component and 0, said lenses of the both components surfaces; the constructive features and nses being given in the following table ature of the lens surfaces; e refraction index; and 11 is References Cited UNITED STATES PATENTS 1/1967 Walther 350-177 FOREIGN PATENTS 3/ 1964 France. 1/1961 Austria.

JOHN K. CORBIN, Primary Examiner. 

